A Model for Stall and Surge in Low-Speed Contra-Rotating Fans

Shahriyari, Mohammad Javad; Khaleghi, Hossein; Heinrich, Martin

doi:10.1115/1.4043251

Cited by 17 publications

(16 citation statements)

References 13 publications

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“…In summary, to solve the overload problem, we adopted the traditional method with different loads (e.g., by reducing the load) or raised the power margin for R2. (25)(26)(27)(28) By comparing our proposed method of AVS control with traditional methods, we observed that our novel method is more comprehensive and has higher performance.…”

Section: Results and Verificationmentioning

confidence: 93%

“…(20)(21)(22)(23)(24) To solve the overload problem encountered in R2 under small-flow conditions, a common solution is to adopt different loads (e.g., by reducing the load) or raise the power margin for R2. (25)(26)(27)(28) Nevertheless, these measures usually reduce the overall performance for other flow conditions. Some studies showed that adaptively changing the load distribution by adjusting the impeller velocity of the rotor may effectively and optimally enhance the overall performance for all flow conditions.…”

Section: Introductionmentioning

confidence: 99%

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Adaptive Variable-speed Control for Enhancing the Performance of a Mine Counter-rotating Fan System

Ai¹,

Qin²,

Wang³

et al. 2021

Sensors and Materials

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The mine counter-rotating fan (MCRF) is important in tunnel construction and is also widely used for ventilation in mining. The need to improve the performance of MCRF systems has been attracting the interest of researchers. An MCRF is composed of two vane rotors that rotate in opposite directions. We propose a novel adaptive variable-speed (AVS) control method to improve the performance of an MCRF system. The proposed method is based on the concept of adaptively controlling the speed of the second vane rotor according to changes in the working conditions of the whole fan system. To evaluate the performance of our proposed AVS control method, experiments were performed using various sensors to detect pressure and mass flow rates when using our newly designed MCRF system. Results show that, with the proposed AVS control method, the problem of the rotor output torque rising and falling markedly during large and small mass flows, respectively, is overcome. Furthermore, the problems of overload and a low blocking margin are solved. As a result, the overall pressure increase and performance of the whole fan system are improved.

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Section: Results and Verificationmentioning

confidence: 93%

Section: Introductionmentioning

confidence: 99%

Adaptive Variable-speed Control for Enhancing the Performance of a Mine Counter-rotating Fan System

Ai¹,

Qin²,

Wang³

et al. 2021

Sensors and Materials

View full text Add to dashboard Cite

show abstract

“…In the recent work done by Khaleghi et al (2020) and Shahriyari et al (2019), the compressor pressure rise function which was used by Moore (1984a) and Moore and Greitzer (1986) was modified to include a second order derivative term, which enabled the investigation of the stall cell transient behavior. The same hypothesized function is used in the current study:…”

Section: Fig 1 Compressor Axisymmetric Characteristicmentioning

confidence: 99%

A Model for Predicting Post-Stall Behavior of Axial Compressors

2021

JAFM

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“…By measuring and comparing the flow characteristics and unsteady characteristics of the three sets of CRFs, they concluded that, under the condition of keeping the rotor angular velocity of two stages approximately equal, redistributing the load of the FR to 60% and the RR to 40% could reduce the loss of the RR. Shahriyari et al [9] reported a CRF post-stall transient theory, which could better predict the instability of a CRF. Besides, by studying the effect of different rotating speeds between rotors, which matched the stall and surge pattern, they concluded that, the higher the RR speed, the stronger the fan resistance to a surge caused by throttling.…”

Section: Introductionmentioning

confidence: 99%

The Effect of Load Control on the Performance of Contra-Rotating Fans

2021

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In recent years, few studies focused on adjusting the load distribution of contra-rotating fan (CRF) blades. To improve the overall performance of CRFs, we used a design code to build 32 sets of CRFs to determine the effects of three factors—the front and rear rotor load matching, the load distribution of each rotor and the axial distance between the rotors—on the total pressure rise and efficiency of CRFs using numerical calculations. The relationship between the CRF blades load and velocity components was theoretically analyzed using blade element analysis and the forward problem method. According to the performance curve, it can be concluded that the rear rotor (RR) is the key factor that determines the performance of CRFs. Through analyzing Mach number contours from different perspectives, the relationship between velocity and adjustment load was verified. Furthermore, the flow field characteristics for three specific CRFs were explored at the stall points, design points and choke points to reveal their flow mechanisms. This study provides a reference for the CRF blade design method.

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A Model for Stall and Surge in Low-Speed Contra-Rotating Fans

Cited by 17 publications

References 13 publications

Adaptive Variable-speed Control for Enhancing the Performance of a Mine Counter-rotating Fan System

Adaptive Variable-speed Control for Enhancing the Performance of a Mine Counter-rotating Fan System

A Model for Predicting Post-Stall Behavior of Axial Compressors

The Effect of Load Control on the Performance of Contra-Rotating Fans

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